Extended Tersoff potential for boron nitride: Energetics and elastic properties of pristine and defective h-BN
JH Los and JMH Kroes and K Albe and RM Gordillo and MI Katsnelson and A Fasolino, PHYSICAL REVIEW B, 96, 184108 (2017).
DOI: 10.1103/PhysRevB.96.184108
We present an extended Tersoff potential for boron nitride (BN-ExTeP) for application in large scale atomistic simulations. BN-ExTeP accurately describes the main low energy B, N, and BN structures and yields quantitatively correct trends in the bonding as a function of coordination. The proposed extension of the bond order, added to improve the dependence of bonding on the chemical environment, leads to an accurate description of point defects in hexagonal BN (h-BN) and cubic BN (c-BN). We have implemented this potential in the molecular dynamics LAMMPS code and used it to determine some basic properties of pristine 2D h-BN and the elastic properties of defective h-BN as a function of defect density at zero temperature. Our results show that there is a strong correlation between the size of the static corrugation induced by the defects and the weakening of the in-plane elastic moduli.
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